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Striatum expresses region-specific plasticity consistent with distinct memory abilities

Sylvie Pérez, Yihui Cui, Gaëtan Vignoud, Elodie Perrin, Alexandre Mendes, Zhiwei Zheng, Jonathan Touboul, Laurent Venance

2022Cell Reports30 citationsDOIOpen Access PDF

Abstract

The striatum mediates two learning modalities: goal-directed behavior in dorsomedial (DMS) and habits in dorsolateral (DLS) striata. The synaptic bases of these learnings are still elusive. Indeed, while ample research has described DLS plasticity, little remains known about DMS plasticity and its involvement in procedural learning. Here, we find symmetric and asymmetric anti-Hebbian spike-timing-dependent plasticity (STDP) in DMS and DLS, respectively, with opposite plasticity dominance upon increasing corticostriatal activity. During motor-skill learning, plasticity is engaged in DMS and striatonigral DLS neurons only during early learning stages, whereas striatopallidal DLS neurons are mobilized only during late phases. With a mathematical modeling approach, we find that symmetric anti-Hebbian STDP favors memory flexibility, while asymmetric anti-Hebbian STDP favors memory maintenance, consistent with memory processes at play in procedural learning.

Topics & Concepts

StriatumNeuroscienceNeuroplasticityPlasticityBiologyPsychologyComputer scienceDopaminePhysicsThermodynamicsChemical synthesis and alkaloidsNeuroscience and Neural EngineeringNeurotransmitter Receptor Influence on Behavior